| Literature DB >> 31801887 |
Amanda S Woodward Davis1, Hayley N Roozen1, Matthew J Dufort2, Hannah A DeBerg2, Martha A Delaney3, Florian Mair1, Jami R Erickson1, Chloe K Slichter1,4, Julia D Berkson1, Alexis M Klock5, Matthias Mack6, Yu Lwo7, Alexander Ko7, Rhonda M Brand8,9, Ian McGowan10,11, Peter S Linsley2, Douglas R Dixon7, Martin Prlic12,4,13.
Abstract
CCR5 is thought to play a central role in orchestrating migration of cells in response to inflammation. CCR5 antagonists can reduce inflammatory disease processes, which has led to an increased interest in using CCR5 antagonists in a wide range of inflammation-driven diseases. Paradoxically, these antagonists appear to function without negatively affecting host immunity at barrier sites. We reasoned that the resolution to this paradox may lie in the CCR5+ T cell populations that permanently reside in tissues. We used a single-cell analysis approach to examine the human CCR5+ T cell compartment in the blood, healthy, and inflamed mucosal tissues to resolve these seemingly contradictory observations. We found that 65% of the CD4 tissue-resident memory T (TRM) cell compartment expressed CCR5. These CCR5+ TRM cells were enriched in and near the epithelial layer and not only limited to TH1-type cells but also contained a large TH17-producing and a stable regulatory T cell population. The CCR5+ TRM compartment was stably maintained even in inflamed tissues including the preservation of TH17 and regulatory T cell populations. Further, using tissues from the CHARM-03 clinical trial, we found that CCR5+ TRM are preserved in human mucosal tissue during treatment with the CCR5 antagonist Maraviroc. Our data suggest that the human CCR5+ TRM compartment is functionally and spatially equipped to maintain barrier immunity even in the absence of CCR5-mediated, de novo T cell recruitment from the periphery.Entities:
Year: 2019 PMID: 31801887 DOI: 10.1126/scitranslmed.aaw8718
Source DB: PubMed Journal: Sci Transl Med ISSN: 1946-6234 Impact factor: 17.956